1. bookVolume 15 (2020): Issue 2 (December 2020)
Journal Details
License
Format
Journal
eISSN
1338-7278
First Published
29 Mar 2013
Publication timeframe
2 times per year
Languages
English
access type Open Access

Analyses of selected thermal-technical parameters of an innovative construction board with built-in infrared heating

Published Online: 31 Dec 2020
Volume & Issue: Volume 15 (2020) - Issue 2 (December 2020)
Page range: 7 - 16
Journal Details
License
Format
Journal
eISSN
1338-7278
First Published
29 Mar 2013
Publication timeframe
2 times per year
Languages
English
Abstract

The purpose of innovations is to increase the efficiency of work procedures, accommodating sustainability and efficiency trends. One of the preconditions of technological innovations is development of construction products. A prefabricated board with built-in infrared heating is an innovative product which reduces labour intensity at the construction site by featuring a heating system that is built directly into the construction board, which begins to perform its function immediately after it is built in. This article presents certain partial results of the research and development of an innovative board with built-in infrared heating, which is currently protected by a valid utility model. Nine material variants of the innovative board were analysed as part of the experimental research. The research focused on the pattern of changes in surface temperature over time. The results of the experiment, despite deviations from the anticipated behaviour of the individual boards, showed a link between thermal resistance and increase in surface temperature.

Keywords

[1] Dubecký, Kozlovská. (2018). Surface temperature analysis of the board with built-in infrared heating. Pollack Periodica. Volume 13, Issue 2, Pages 27-34. ISSN 1788-199410.1556/606.2018.13.2.3Search in Google Scholar

[2] Wilson, McGranaghan. (2014). Infrared heating comes of age. Reinforced Plastics. Volume 58, Issue 2, Pages 43-47. ISSN 0034-361710.1016/S0034-3617(14)70109-2Search in Google Scholar

[3] Butturini, Ngo. (2008) Flux mapping of radiant electric heaters: repeatability considerations U.S. Consumer Product Safety CommissionSearch in Google Scholar

[4] Naos Europe. (2012). Technical datasheet. 1.6.2020, http://naoseurope.eu/wp-content/uploads/2011/05/technical_datasheet_SK-v.08.12_2012.03.27.pdfSearch in Google Scholar

[5] Lipták-Váradi. (2017). Indoor air quality measurements in Hungarian residential buildings. Pollack Periodica. Vol. 12, No. 2, Pages 163–172. ISSN 1788-199410.1556/606.2017.12.2.14Search in Google Scholar

[6] Brown, Farrelly, O’Shaughnessy, Robinson. (2016). Energy efficiency of electrical infrared heating elements. Applied Energy. Volume 162, Pages 581-588. ISSN 0306-261910.1016/j.apenergy.2015.10.064Search in Google Scholar

[7] Far Infra Co. Ltd. (2011). Hot film. 1.6.2020, http://www.korea-heating.eu/hot-film_eng.phpSearch in Google Scholar

[8] Naos Europe. (2012). Installation guide. 1.6.2020, http://www.fulleko.sk/pics/naos/installation_guide_SK_-_v.01.26_2012.03.27.pdfSearch in Google Scholar

[9] Dubecký, Kozlovská. (2017) Prefabricated board with built-in infrared heating, valid utility model SK 7722 Y1. Pages 5. Banská Bystrica: ÚPV SRSearch in Google Scholar

[10] Infra Sunny. (2020) Elektrické podlahové kúrenie Caleo efficient. 1.6.2020, https://infra-kurenie.com/podlahove-infra-kurenie-pre-novostavby/Search in Google Scholar

Recommended articles from Trend MD

Plan your remote conference with Sciendo